CN212747192U

CN212747192U - Microbial fertilizer dewatering equipment

Info

Publication number: CN212747192U
Application number: CN202021138328.7U
Authority: CN
Inventors: 王博
Original assignee: Individual
Current assignee: Qihar Qidijia Biotechnology Co ltd
Priority date: 2020-06-18
Filing date: 2020-06-18
Publication date: 2021-03-19
Anticipated expiration: 2030-06-18

Abstract

The utility model discloses a microbial fertilizer dewatering equipment, including the casing, the casing top is equipped with the feed inlet, and casing lateral wall bottom is equipped with the discharge gate, and the casing lateral wall is equipped with the air intake, and the casing inside wall rotates the pivot of being connected with the level setting, a plurality of stirring vane of fixedly connected with in the pivot, and the pivot runs through the casing lateral wall and extends to external fixedly connected with link mechanism, link mechanism fixedly connected with pushing equipment. The utility model discloses a set up pivot and stirring vane isotructure and can realize stirring to the microbial manure, and then realize that stirring vane constantly spills fertilizer aloft, and then can effectual increase microbial manure and the area of contact of air for the drying rate of microbial manure avoids the fertilizer bottom condition such as dry slow of microbial manure pile formation.

Description

Microbial fertilizer dewatering equipment

Technical Field

The utility model belongs to the technical field of the microbial manure makes, especially, relate to a microbial manure dewatering equipment.

Background

The microbial fertilizer is also called biological fertilizer, inoculant or bacterial fertilizer, and is a fertilizer product which takes the life activity of microbes as the core and enables crops to obtain specific fertilizer effect.

When the microbial fertilizer is produced, the microbial fertilizer needs to be dehydrated, so that the microbial fertilizer is ensured to have lower water content, the microbial fertilizer is convenient to store, transport and use, and the existing dehydration equipment for the microbial fertilizer has low dehydration efficiency. Slow dehydration, etc.

Therefore, we propose a microbial fertilizer dewatering device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem, and providing a microbial fertilizer dewatering equipment capable of improving the microbial fertilizer dewatering efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a microbial fertilizer dewatering equipment, includes the casing, the casing top is equipped with the feed inlet, casing lateral wall bottom is equipped with the discharge gate, casing lateral wall is equipped with the air intake, the casing inside wall rotates the pivot of being connected with the level setting, a plurality of stirring vane of fixedly connected with in the pivot, the pivot runs through casing lateral wall and extends to external fixedly connected with link mechanism, link mechanism fixedly connected with pushing equipment.

Preferably, the link mechanism comprises a connecting rod and a control piece, the connecting rod is fixedly connected with a protrusion, a vertically arranged sliding groove is arranged in the control piece, and the protrusion is connected with the sliding groove in a sliding manner.

Preferably, one end of the connecting rod, which is far away from the protrusion, is fixedly connected with the rotating shaft, and the control piece is connected with the pushing mechanism.

Preferably, pushing equipment comprises slide bar, slide and scraping wings, the slide bar is equipped with a plurality ofly and parallel arrangement each other, slide and slide sliding connection, the scraping wings be equipped with two and respectively with the slide along the both ends fixed connection of slide axis.

Preferably, the sliding plate penetrates through the side wall of the shell and extends to the outside to be fixedly connected with the control member.

Preferably, a plurality of through grooves are formed in the material pushing plate, a rotating plate is hinged in each through groove, and one side, close to the stirring blades, of the top end of each rotating plate is hinged with each through groove.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the microbial fertilizer can be stirred by arranging the rotating shaft, the stirring blades and other structures, so that the fertilizer is continuously sprayed in the air by the stirring blades, the contact area of the microbial fertilizer and the air can be effectively increased, the drying speed of the microbial fertilizer is accelerated, and the conditions that the bottom of the fertilizer is slow to dry due to the accumulation of the microbial fertilizer are avoided;

2. by arranging the connecting rod mechanism and the material pushing mechanism, the material pushing plate can continuously do reciprocating motion when the rotating shaft rotates, so that microbial fertilizer in the shell is continuously moved towards the rotating shaft and the stirring blades by the material pushing plate, and the situation that the fertilizer in the shell is accumulated on two sides of the rotating shaft to cause poor dehydration effect of the fertilizer on two sides of the shell can be avoided;

3. through setting up logical groove and rotor plate isotructure and can realizing when the scraping wings moves towards the direction of pivot, the rotor plate will unable the rotation, and then realize that the rotor plate promotes fertilizer and removes towards the pivot direction, when the scraping wings was kept away from the pivot direction and is removed, the rotor plate will rotate with logical groove top, and then make the fertilizer that is located the scraping wings and keeps away from pivot one side remove from leading to the groove toward one side that the scraping wings is close to the pivot, and then make things convenient for follow-up rotor plate to continue to promote fertilizer and remove.

Drawings

Fig. 1 is a schematic view of an external structure of a microbial fertilizer dewatering device provided by the present invention;

fig. 2 is the utility model provides a tangent plane structure of microbial fertilizer dewatering equipment.

In the figure: the device comprises a shell 1, a feeding hole 2, a discharging hole 3, an air inlet 4, a rotating shaft 5, a stirring blade 6, a link mechanism 7, a link mechanism 71, a control part 72, a projection 73, a sliding chute 74, a pushing mechanism 8, a sliding rod 81, a sliding plate 82, a pushing plate 83, a through groove 831, a rotating plate 832 and an opening 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a microbial fertilizer dewatering device comprises a shell 1, wherein a feed inlet 2 is formed in the top end of the shell 1, a discharge outlet 3 is formed in the bottom end of the side wall of the shell 1, an air inlet 4 is formed in the side wall of the shell 1, the air inlet 4 is in a filter screen structure with the inner part of the shell 1, so that fertilizer is prevented from entering the air inlet 4 to block the air inlet 4, the air inlet 4 is communicated with a hot air blower (not shown in the figure) which is fixedly connected with the outer side wall of the shell 1 and has the model of BJE-50E, hot air can be introduced into the shell 1.

The inside wall of the shell 1 is rotatably connected with a rotating shaft 5 which is horizontally arranged, the outside wall of the shell 1 is provided with a motor (not shown in the figure) which is fixedly connected with the rotating shaft 5 and has the model of YL80S-2, the rotating shaft 5 is fixedly connected with a plurality of stirring blades 6, and the rotating shaft 5 penetrates through the side wall of the shell 1 and extends to the outside fixedly connected with link mechanism 7.

The link mechanism 7 is composed of a link 71 and a control member 72, wherein a protrusion 73 is fixedly connected to the link 71, a vertically arranged slide groove 74 is arranged in the control member 72, and the protrusion 73 is slidably connected with the slide groove 74.

One end of the connecting rod 71 far away from the projection 73 is fixedly connected with the rotating shaft 5.

When the rotating shaft 5 rotates, the rotating shaft 5 will drive the connecting rod 71 fixedly connected with the rotating shaft 5 to rotate, the connecting rod 71 rotates around the axis of the rotating shaft 5, and the control member 72 is driven to move through the cooperation between the protrusion 73 and the sliding groove 74.

When the rotating shaft 5 rotates one turn, the connecting rod 71 will drive the control member 72 to reciprocate linearly, in the process, the protrusion 73 and the sliding slot 74 slide up and down.

The connecting rod mechanism 7 is fixedly connected with a pushing mechanism 8.

The pushing mechanism 8 comprises a sliding rod 81, a sliding plate 82 and a pushing plate 83, the sliding rod 81 is provided with a plurality of sliding plates which are arranged in parallel, the sliding plate 82 is penetrated by the sliding rod 81 and is in sliding connection with the sliding rod 81, the pushing plate 83 is provided with two sliding plates which are respectively in fixed connection with the two ends of the sliding plate 82 along the axis of the sliding rod 81, and the pushing plate 83 is penetrated by the sliding rod 81 and is in sliding connection with the sliding rod 81.

The sliding plate 82 penetrates through the side wall of the casing 1 and extends to the outside to be fixedly connected with the control member 72, the side wall of the casing 1 is provided with an opening 9 horizontally connected with the sliding plate 82 in a sliding manner, and when the control member 72 moves, the sliding plate 82 is driven to slide along the opening 9.

Thus, the control member 72 can only move linearly and horizontally, and when the rotating shaft 5 rotates for one circle, the connecting rod 71 drives the control member 72 to move linearly and reciprocally, in the process, the protrusion 73 and the sliding groove 74 slide up and down.

When the control member 72 reciprocates linearly, the slide plate 82 is driven to reciprocate linearly, so that the slide plate 82 drives the two material pushing plates 83 to reciprocate linearly.

A plurality of through grooves 831 are formed in the material pushing plate 83, a rotating plate 832 is hinged in the through grooves 831, and one side, close to the stirring blades 6, of the top end of the rotating plate 832 is hinged with the through grooves 831.

When the scraping wings 83 moves towards the direction of the rotating shaft 5, the rotating plates 832 cannot rotate, and further the rotating plates 832 push the fertilizer to move towards the direction of the rotating shaft 5, when the scraping wings 83 move away from the direction of the rotating shaft 5, the rotating plates 832 rotate with the top ends of the through grooves 831, and further the fertilizer located on one side of the scraping wings 83 away from the rotating shaft 5 moves from the through grooves 831 to one side of the scraping wings 83 close to the rotating shaft 5, so that the subsequent rotating plates 832 can continue to push the fertilizer to move, so that the fertilizer continuously moves towards the direction of the rotating shaft 5 from the edge of the shell 1, and further the fertilizer can be fully thrown by the rotating shaft 5 and the stirring blades 6, and further the fertilizer can be fully dehydrated.

Now, the operation principle of the present invention is described as follows:

the utility model discloses in, when driving pivot 5 through the motor and rotating, pivot 5 will drive fixed connection's stirring vane 6 with it and rotate, and then realize that stirring vane 6 constantly spills fertilizer aloft, and then can effectual increase microbial fertilizer and the area of contact of air for microbial fertilizer's drying rate avoids the fertilizer bottom condition such as dry slowly that microbial fertilizer piles up to make.

Meanwhile, the connecting rod 71 is driven to rotate in the rotating process of the rotating shaft 5, the control piece 72 is driven to do linear reciprocating motion by the rotation of the connecting rod 71 through the matching between the protrusion 73 and the sliding groove 74, the control piece 72 drives the material pushing plate 83 to move through the sliding plate 82, the fertilizer is continuously pushed to the rotating shaft 5 from the edge of the shell 1, the fertilizer is fully thrown by the stirring blades 6, and the fertilizer dewatering efficiency is improved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a microbial manure dewatering equipment, includes casing (1), its characterized in that, casing (1) top is equipped with feed inlet (2), casing (1) lateral wall bottom is equipped with discharge gate (3), casing (1) lateral wall is equipped with air intake (4), casing (1) inside wall rotates pivot (5) of being connected with the level setting, a plurality of stirring vane (6) of fixedly connected with are gone up in pivot (5), pivot (5) run through casing (1) lateral wall and extend to external fixedly connected with link mechanism (7), link mechanism (7) fixedly connected with pushing equipment (8).

2. A microbial fertilizer dewatering apparatus as claimed in claim 1, wherein the linkage mechanism (7) comprises a connecting rod (71) and a control member (72), a protrusion (73) is fixedly connected to the connecting rod (71), a vertically arranged chute (74) is arranged in the control member (72), and the protrusion (73) is slidably connected with the chute (74).

3. A microbial fertilizer dewatering apparatus as claimed in claim 2, wherein the end of the link (71) remote from the projection (73) is fixedly connected to the shaft (5), and the control member (72) is connected to the pushing mechanism (8).

4. A microbial fertilizer dewatering apparatus according to claim 2, wherein the pushing mechanism (8) comprises a plurality of sliding rods (81), a plurality of sliding plates (82) and a plurality of pushing plates (83), the sliding rods (81) are arranged in parallel, the sliding plates (82) are slidably connected with the sliding rods (81), and the pushing plates (83) are arranged in two and are respectively fixedly connected with two ends of the sliding plates (82) along the axis of the sliding rods (81).

5. A microbial fertilizer dewatering apparatus as claimed in claim 4, wherein the slide plate (82) extends through the side wall of the housing (1) and extends to the environment to be fixedly connected to the control member (72).

6. A microbial fertilizer dewatering apparatus as claimed in claim 4, wherein a plurality of through slots (831) are provided in the stripper plate (83), a rotating plate (832) is hinged in the through slots (831), and one side of the top end of the rotating plate (832) near the stirring blade (6) is hinged with the through slots (831).